CN104428183A - Control device for hybrid vehicle - Google Patents

Abstract

The present invention avoids insufficiency of driving force when switching a traveling mode and improves responsiveness by using a control device for a hybrid vehicle which can be set to multiple traveling modes. This control device is for a hybrid vehicle which is equipped with an internal combustion engine and two electric motors and allows a selection between a state in which the internal combustion engine is used for traveling and a state in which the electric motors are used for traveling, and is equipped with a prediction means (steps S2-S4) which, when the vehicle is traveling by using the two electric motors with the internal combustion engine stopped, predicts the start of the internal combustion engine on the basis of a detection value which indicates a state of the traveling vehicle; a switching means (step S5) which makes switching to a state in which without using an electric motor to be used for starting the internal combustion engine, the other electric motor is used for the hybrid vehicle to travel; and a starting means which starts the internal combustion engine while the other electric motor is being used for the vehicle to travel.

Description

The control setup of motor vehicle driven by mixed power

Technical field

The present invention relates to and possess the control setup of the diverse engine installation such as combustion engine and motor as the motor vehicle driven by mixed power of the propulsion source of vehicle.

Background technology

In the past, there will be a known a kind of motor vehicle driven by mixed power, possess combustion engine and carry out the motor of outputting power as propulsion source by electric power, the power that combustion engine exports is distributed by power splitting mechanism and passes to the motor-side possessing electricity generate function and the outgoing side be connected with drive wheel.This power splitting mechanism is consisted of the modified roll mechanism be made up of multiple rotary element, and any one rotary element links combustion engine, and other rotary element links motor.And, multiple driving mode such as pattern there will be a known a kind of motor vehicle driven by mixed power, the pattern only utilizing combustion engine to travel in above-mentioned propulsion source, the pattern only utilizing motor to travel can be selected, being travelled by both combustion engine and motor.

Such as, a kind of motor vehicle driven by mixed power is described in U.S. Patent Application Publication No. 2009/0082171 specification sheets, possess driving engine and two dynamotors as propulsion source, and possessing sun and planet gear, this sun and planet gear comprises: the gear ring be connected with the first dynamotor and driving engine via power-transfer clutch or drg; The sun wheel linked with the second dynamotor; The planetary wheel carrier be connected with drive wheel via output.Particularly disclose a kind of speed-changing mechanism of electrical resistance, by the combination of the propulsion source of above-mentioned power-transfer clutch, brakeage and outputting power, and multiple driving mode can be set.Specifically, the double motor electric model that driving mode can be made to be transformed into make two dynamotors to drive, the single motor electro pattern only the second dynamotor being driven, allocation model that driving engine and the second dynamotor are driven is disclosed.

In addition, a kind of motor vehicle driven by mixed power is described in Japanese Unexamined Patent Publication 08-295140 publication, consist of, power splitting mechanism is formed by sun and planet gear, the power that driving engine exports is inputted to planetary wheel carrier, and in sun wheel, link electrical generator motor, the torque produced from gear ring Driving Torque and to this torque plus-minus electro-motor.This motor vehicle driven by mixed power is configured to optionally be fixed together with planetary wheel carrier by driving engine by drg.When making this engine stop and utilize the power of electrical generator motor to travel, by drg, planetary wheel carrier is fixed, power splitting mechanism can be made thus to play function as retarder.

According to the device that above-mentioned document is recorded, by power-transfer clutch, drg engaging or release are switched driving mode, but the output performance of the engine installation used as propulsion source before and after this Mode change is different, the power therefore exported is relative to requiring that propulsive effort may be not enough.That is, the propulsive effort being difficult to simultaneously realize when switching driving mode rapidly and avoid driving mode to change is not enough.Such as, from the driving mode of only motor to use switch from the driving mode of the output of driving engine time, motor is used in order to make engine starting, in this case, engine starting is made owing to requiring propulsive effort large, therefore the power of motor is used to make engine starting, thus exists relative to requiring the possibility that the propulsive effort of propulsive effort is temporarily not enough.

Summary of the invention

The present invention is conceived to above-mentioned technical task and makes, object is to provide one to possess diverse multiple engine installation, and can suppress the control setup of the temporary transient motor vehicle driven by mixed power of the sense of discomfort caused such as not enough of propulsive effort when changing from the driving mode of the mutually different regulation of engine installation used to other driving mode.

In order to realize above-mentioned object, the present invention relates to a kind of control setup of motor vehicle driven by mixed power, described motor vehicle driven by mixed power possesses combustion engine and two electrical motors, and be configured to can the state that travels of the power that exports of combustion engine described in choice for use and make described combustion engine stop and using the state that the power that at least any one electrical motor exports travels, the feature of the control setup of described motor vehicle driven by mixed power is, possess: predicting unit, when using the power of described two electrical motors to make described vehicle travel making described combustion engine stop, detected value based on the state representing the described vehicle travelled predicts the situation that will make described engine starting, switch unit, predicted by described predicting unit to make described engine starting time, switch to following state: the traveling electrical motor that described engine starting will be used in described two electrical motors not being used in described motor vehicle driven by mixed power, and the power using the electrical motor of the opposing party to export is to make described hybrid car travel, and starting unit, after the state establishment that the power of the electrical motor using described the opposing party makes described vehicle travel, make described engine starting.

The present invention is based on above-mentioned invention, relate to a kind of control setup of hybrid electric vehicle, it is characterized in that, described detected value comprises the electric power storage surplus of the electrical storage device to described electrical motor supply electric power, the speed of a motor vehicle, require propulsive effort, in the temperature of described electrical motor at least any one, described predicting unit comprises following unit: in the situation that described electric power storage surplus is fewer than a reference value about electric power storage surplus, the described speed of a motor vehicle is in a ratio of the situation of the high speed of a motor vehicle with a reference value about the speed of a motor vehicle, described temperature is in a ratio of any one situation in the situation of high temperature with a reference value about temperature and requires that driving force ratio is about when requiring that the situation that a reference value of propulsive effort is little is set up, the prediction of the state should starting described combustion engine is set up.

The present invention is based on above-mentioned invention, relate to a kind of control setup of hybrid electric vehicle, it is characterized in that, described a reference value comprises the first reference value for predicting the situation that will make described engine starting, for making in a reference value i.e. second a reference value of described engine starting, when the situation that the electric power storage surplus of at least described electrical storage device is fewer than the second a reference value about electric power storage surplus is set up, described starting unit makes described engine starting, and the first reference value about described electric power storage surplus is the value larger than the second a reference value about described electric power storage surplus.

The present invention is based on above-mentioned invention, relate to a kind of control setup of hybrid electric vehicle, it is characterized in that, the first reference value about described electrical storage device is configured to as following value: the value set when the value set when the described speed of a motor vehicle is in high speed of a motor vehicle side is in low speed of a motor vehicle side than the described speed of a motor vehicle is large.

The present invention, based on above-mentioned invention, relates to a kind of control setup of hybrid electric vehicle, it is characterized in that, the control setup of described motor vehicle driven by mixed power also possesses: memory cell, stores the rate of change of the electric power storage surplus about described electrical storage device; And a reference value changing unit, rate of change based on described electric power storage surplus changes the described first reference value about electric power storage surplus, the value that the first reference value changed when the first reference value changed when making the rate of descent in the rate of change of described electric power storage surplus relatively large changes to relatively less than the rate of descent of described electric power storage surplus is little.

The present invention, based on above-mentioned invention, relates to a kind of control setup of hybrid electric vehicle, it is characterized in that, the control setup of described motor vehicle driven by mixed power also possesses: memory cell, stores the rate of change about the described speed of a motor vehicle; And a reference value changing unit, rate of change based on the described speed of a motor vehicle changes the described first reference value about electric power storage surplus, the value that the first reference value changed when the first reference value changed when making the rate of change of this speed of a motor vehicle relatively large changes to relatively less than the rate of change of the described speed of a motor vehicle is little.

The present invention, based on above-mentioned invention, relates to a kind of control setup of hybrid electric vehicle, it is characterized in that, the control setup of described motor vehicle driven by mixed power also possesses: link key element, fixes or discharge the S. A. of described combustion engine; And release indicating member, make described link key element discharge when predicting will make described engine starting by described predicting unit.

According to this invention, predicted by predicting unit to make engine starting time, switched from the motoring condition of the power of use two electrical motors to the motoring condition of the power of a use electrical motor by switch unit, therefore, it is possible to avoid the propulsive effort deficiency becoming reason in order to the electrical motor making this engine starting use when being made engine starting by starting unit to occur.And, before making engine starting by starting unit, as the state of preparation, the motoring condition of the power of a use electrical motor can be maintained in.

According to the present invention, based in the temperature of the electric power storage surplus of electrical storage device, the speed of a motor vehicle, propulsive effort, electrical motor at least any one predicts the situation that will make engine starting, even if therefore when only making an electrical motor play function as propulsion source, also can fully guarantee from electrical storage device to electrical motor can delivery, therefore, it is possible to avoid when being made engine starting by starting unit relative to requiring that the propulsive effort deficiency of propulsive effort occurs.And the state based on the vehicle travelled implements the switching of the driving mode undertaken by switch unit, therefore, it is possible to make two electrical motors play function as propulsion source, vehicle can be made to travel with the state that electric power degree of utilization is good.

According to the present invention, be provided with second a reference value about electric power storage surplus of the starting conditions as combustion engine, therefore, it is possible to avoid the output when being made engine starting by starting unit from the electrical motor playing function as propulsion source not enough, can prevent propulsive effort deficiency from occurring.And, the control of switch unit is performed by the value larger than this second a reference value and first reference value, therefore, it is possible to travel with the state of the vehicle travelled, state that especially electric power storage surplus is suitable, therefore, it is possible to make two electrical motors play function as propulsion source, vehicle can be travelled with the state that electric power degree of utilization is good.

According to the present invention, first reference value about electric power storage surplus corresponds to the speed of a motor vehicle and is set as different values, especially relatively little value is set as in low speed of a motor vehicle side, relatively large value is set as in high speed of a motor vehicle side, even if therefore correspond to speed of a motor vehicle change and the change of electric power storage surplus, also can prevent propulsive effort deficiency from occurring.And, even if when electric power storage surplus declines, two electrical motors also can be made to play function as propulsion source in low speed of a motor vehicle side, therefore, it is possible to the motoring condition making electric power degree of utilization good continues.

According to the present invention, by a reference value changing unit, change first reference value, therefore except the motoring condition of vehicle based on the rate of descent of electric power storage surplus or the rate of change of the speed of a motor vehicle, also based on the driving tendency being stored in memory cell, the switching controls of being undertaken by switch unit can be implemented.Therefore, even if when the frequency being in acceleration and deceleration is many or its variable quantity is large driving tendency, the propulsive effort electric power storage surplus of electrical storage device also can being avoided sharply to decline produce is not enough.

According to the present invention, in the state of the link key element release rotation of combustion motor is fixed by release indicating member and under the state that travels of the power being used electrical motor to export by switch unit, engine starting is made by starting unit, as long as therefore by not making the combustion engine of idling conditions carry out motoring as the electrical motor of propulsion source performance function, the responsibility of the starting of combustion engine can be improved.Therefore, it is possible to prevent or suppress following situation: owing to making engine starting, propulsive effort temporarily declines, or produce impact, or bring sense of discomfort to passenger.

Accompanying drawing explanation

Fig. 1 is the diagram of circuit of the control of control setup for illustration of motor vehicle driven by mixed power of the present invention.

Fig. 2 is the speed of a motor vehicle and SOC to represent the boundary line of each driving mode and to set the mapping in region of each driving mode.

Fig. 3 is the time diagram represented about the passing of the electric power storage surplus of electrical storage device and the transformation of each driving mode.

Fig. 4 is the time diagram representing the passing of the speed of a motor vehicle and SOC and the switching of driving mode.

Fig. 5 is the time diagram represented about the passing of the speed of a motor vehicle and the transformation of each driving mode.

Fig. 6 is the figure of the synoptic map of the vehicle schematically showing the control setup being equipped with motor vehicle driven by mixed power of the present invention.

Fig. 7 is the alignment chart about the sun and planet gear forming power splitting mechanism, a () is the situation representing the 2nd EV pattern, b () is the situation representing an EV pattern, (c) is the situation of the engine starting represented based on motor.

Fig. 8 be represent driving engine under each driving mode and each dynamotor operating state and link the engaging of key element or the table of release position.

Fig. 9 is the mapping of the example represented when the mode of boundary line movement being controlled with the motoring condition corresponding to vehicle.

Figure 10 is the synoptic map of the vehicle of another concrete example of the control setup being equipped with motor vehicle driven by mixed power of the present invention.

Figure 11 is the synoptic map of the vehicle of another concrete example of the control setup being equipped with motor vehicle driven by mixed power of the present invention.

Detailed description of the invention

Below, based on concrete example, the present invention is described.The control setup of motor vehicle driven by mixed power of the present invention carries out the control from so-called EV (Electric Vehicle) pattern to the switching of so-called HV (Hybrid Vehicle) pattern, this EV (Electric Vehicle) pattern is the state travelled by means of only the power exported from electrical motor, and this HV (Hybrid Vehicle) pattern is the state that the power by exporting from electrical motor and combustion engine travels.In other words, be in vehicle travels, the motor vehicle driven by mixed power control setup that the mode carrying out to make the engine starting of stopping switching driving mode controls.Combustion engine and two electrical motors are possessed as diverse engine installation in the present invention as the motor vehicle driven by mixed power of object.It is the motor vehicle driven by mixed power of so-called two motor type.And aforesaid pattern is the Land use systems of the propulsive effort of the traveling of motor vehicle driven by mixed power.Specifically, the mode there is the mode of the power using combustion engine to export to travel, using the power of combustion engine and electrical motor output to travel, the mode etc. of power using electrical motor to export to travel, the power that these propulsions source export makes the link key elements such as various power-transfer clutch or drg suitably engage or discharge and be passed to drive wheel, therefore be not only the propulsion source needed for each pattern, and the link key element of engaging is sometimes also different.It should be noted that, in the following description, sometimes " pattern " is called " driving mode ".And, sometimes by being set as that the situation that the vehicle of EV pattern travels is called " EV traveling ", equally, sometimes situation about travelling with HV pattern is called " HV traveling ".Below, with reference to accompanying drawing, the concrete example of the control setup of motor vehicle driven by mixed power of the present invention is described.

First, the inscape of the vehicle of the control setup of the motor vehicle driven by mixed power being equipped with one embodiment of the present invention is described, transmits the path of the power from propulsion source.Fig. 6 is the synoptic map of the vehicle schematically showing the control setup being equipped with this motor vehicle driven by mixed power, schematically shows power transfer path.In this motor vehicle driven by mixed power, as diverse engine installation, possess: the driving engine 1 as combustion engine making the combustion fuel such as engine petrol or diesel motor and outputting power; Have concurrently and be supplied to electric power and the function of outputting power and forcibly rotated by external force and carry out the first dynamotor 2 and the second dynamotor 3 of the function generated electricity.Propulsion source refers to the engine installation playing and export the function being produced the power of propulsive effort by drive wheel.And power transfer path refers to the path of transmitting the power exported from engine installation.It should be noted that, in the drawings, sometimes driving engine 1 is designated as " ENG ", equally the first dynamotor 2 is designated as " MG1 ", the second dynamotor 3 is designated as " MG2 ".And dynamotor 2,3 is configured to be supplied to the electric power accumulated by not shown electrical storage device, or to the electric power that electrical storage device supply generates electricity.

From this driving engine 1 in the power transfer path of drive wheel, the power splitting mechanism 4 had the function that the power of driving engine 1 output distributes is set.Power splitting mechanism 4 is made up of the modified roll mechanism possessing three rotary element, in the example shown in Fig. 6, is made up of the sun and planet gear of single pinion type.This sun and planet gear and power splitting mechanism 4 possess: as the sun wheel Sn of external gear; The gear ring Rg as inner gear on concentric circles is configured in relative to sun wheel Sn; Being remained by the planetary wheel Pn that the state engaged with gear ring Rg with sun wheel Sn configures can rotation and the planetary wheel carrier Cr that can revolve round the sun.Sun wheel Sn is linked with the first dynamotor 2.Planetary wheel carrier Cr is linked with driving engine 1.Gear ring Rg is linked with not shown drive wheel via the component of outgoing side.

Link from the S. A. 5 of driving engine 1 transferring power with the planetary wheel carrier Cr of the mode rotated integrally and this power splitting mechanism 4.This S. A. 5 is formed in the mode rotated integrally with the bent axle of driving engine 1.And, as illustrated in Fig. 6, the driving engine 1 in power transfer path and be provided with the stopper mechanism B optionally making the rotation of S. A. 5 and planetary wheel carrier Cr stop between power splitting mechanism 4.Be configured to switch to the release position can carrying out transmission of torque between driving engine 1 and power splitting mechanism 4 and the fastening state that this transmission of torque can not be carried out as this stopper mechanism B linking key element.

As long as this stopper mechanism B carries out the mechanism of the stopping of S. A. 5 and the releasing of this stopping, it can be the mechanism of arbitrary forms such as the mechanism of engagement type mechanism or friction-type.Such as, in the example shown in Fig. 6, be made up of engagement type power-transfer clutchs such as claw clutches.When the structure of this stopper mechanism B is described, as illustrated in Fig. 6, be provided with the wheel hub 6 integrated with S. A. 5.Be formed with spline at the peripheral part of this wheel hub 6, the sleeve 7 chimeric with this spline is configured in the outer circumferential side of wheel hub 6.Further, sleeve 7 is configured to by not shown actuator, and the outer circumferential side of wheel hub 6 is moved forward and backward in the axial direction.That is, be also formed with spline at the peripheral part of sleeve 7, the cylindrical structural member 8 chimeric with the spline of the peripheral part of sleeve 7 is integrally located at the fixed parts such as housing.Therefore, stopper mechanism B utilizes sleeve 7 that wheel hub 6 is combined with fixed part, makes the rotation of S. A. 5 and planetary wheel carrier Cr stop thus.

In addition, the output gear 9 as output link links with the gear ring Rg becoming mode and the power splitting mechanism 4 rotated integrally.Output gear 9 links 10 and the diff 15 as whole retarder via counter shaft gear.That is, the countershaft driven gear 11 be arranged on countershaft 12 engages with output gear 9, and, engage with the gear ring 14 of diff 15 with the countershaft driven wheel 13 of countershaft 12 one.Above-mentioned countershaft driven gear 11 and countershaft 12 and countershaft driven wheel 13 form counter shaft gear to 10.Further, from this diff 15 via axletree 16 drive wheel transferring power to the left and right.

In addition, the sun wheel Sn of power splitting mechanism 4 is linked with the first dynamotor 2.The S. A. 2b integrated with rotor 2a in first dynamotor 2 is the output shaft from the first dynamotor 2 outputting power, and the sun wheel Sn of this S. A. 2b and power splitting mechanism 4 links in the mode rotated integrally.

In addition, although not shown, this motor vehicle driven by mixed power is provided with the electronic control package as controller controlled the operating state of engine installation and the operating state of link key element.This electronic control package is formed by based on the microcomputer of arithmetic processing apparatus, memory storage, IO interface.That is, the control setup of motor vehicle driven by mixed power of the present invention is made up of this electronic control package.

For the sensor signal that the input of this electronic control package detects the rotating speed of driving engine 1, the rotating speed of dynamotor 2,3, the electric power storage surplus SOC (State Of Charge) of electrical storage device, the serviceability of the speed of a motor vehicle, acceleration/accel, Das Gaspedal, the serviceability of brake pedal, the rotating speed of axletree 16, the rotating speed etc. of drive wheel.And various data are stored in the memory storage of electronic control package together with various control programs.Therefore, based on the data of the signal inputted to electronic control package and storage, just electronic control package exports the signal controlled inscape.Such as, there is the signal that driving engine 1 is controlled, the signal that dynamotor 2,3 is controlled, signal etc. that stopper mechanism B is controlled.It should be noted that, in the following description, the electric power storage surplus SOC of electrical storage device is described referred to as " SOC ".

The sensor signal that the rotating speed of driving engine 1, the rotating speed of dynamotor 2,3, the electric power storage surplus SOC (State Of Charge) of electrical storage device, the serviceability of the speed of a motor vehicle, acceleration/accel, Das Gaspedal, the serviceability of brake pedal, the rotating speed of axletree 16, the rotating speed etc. of drive wheel detect is inputted to this electronic control package.And various data are stored in the memory storage of electronic control package together with various control program.Therefore, based on the data of the signal inputted to electronic control package and storage, export the signal controlling inscape from electronic control package.Such as, there is the signal that driving engine 1 is controlled, the signal that dynamotor 2,3 is controlled, signal etc. that stopper mechanism B is controlled.It should be noted that, in the following description, the electric power storage surplus SOC of electrical storage device is described referred to as " SOC ".

In addition, in the memory storage that electronic control package possesses, the detected value corresponding with the travel conditions of vehicle is stored.Specifically, the speed of a motor vehicle, SOC, require that the passing of the detected value such as the rate of change of the rate of change of the detected value such as propulsive effort, temperature, the speed of a motor vehicle, SOC, the rate of change of acceleration/accel is stored in the memory storage of electronic control package.Especially in this memory storage, can store and data base system is carried out in the passing of the passing of SOC and the speed of a motor vehicle, and pass based on these value that rate of change is analyzed by electronic control package.Therefore, the control setup of motor vehicle driven by mixed power of the present invention implements the switching controls of driving mode based on the information be stored in this memory storage.And the mapping that the control illustrating such switching driving mode by Fig. 2 carrys out reference is stored in memory storage.It should be noted that, although will require that propulsive effort is illustrated as detected value, require that propulsive effort is the value calculated.Specifically, be the value calculated based on the speed of a motor vehicle and accelerator open degree.That is, the value calculated also is comprised in aforesaid detected value.

Then, with reference to Fig. 7, the alignment chart about the sun and planet gear forming power splitting mechanism 4 is described.Fig. 7 illustrates the alignment chart about the sun and planet gear forming above-mentioned power splitting mechanism 4.Alignment chart utilizes vertical line to represent multiple rotary element that the differential attachments such as power splitting mechanism possess, by interval corresponding for the rotary element gear ratio each other that vertical line interval is each other set to and this vertical line represents, represented the known figure of the rotating speed of above-mentioned rotary element by the length in vertical line direction.Therefore, shown in the relation alignment chart as illustrative in Fig. 7 of driving engine 1, first dynamotor 2, second dynamotor 3 linked with each rotary element.This power splitting mechanism 4 is made up of single pinion type planetary gear mechanism, therefore in alignment chart, represent that the vertical line of sun wheel Sn and the gear ring Rg that is linked with the second dynamotor 3 being linked with the first dynamotor 2 is positioned at a left and right sides, between above-mentioned vertical line, have the vertical line representing the planetary wheel carrier Cr by stopper mechanism B, rotation being stopped or linking with driving engine 1.

And the control setup of this motor vehicle driven by mixed power can set at least three driving modes.Such as, can set only make in multiple engine installation electrical motor as propulsion source play function EV pattern, make two electrical motors as propulsion source play function EV pattern, make electrical motor and combustion engine play the HV pattern of function as propulsion source.That is, in EV pattern, two driving modes are comprised.Specifically, can set only utilize the Driving Torque from the first dynamotor 2 that vehicle is travelled an EV pattern, based on the Driving Torque from the first dynamotor 2 and the 2nd EV pattern that makes vehicle travel from the Driving Torque of the second dynamotor 3.And, set with as driving mode corresponding to the fastening state of stopper mechanism B or release position that link key element.Operating state condensed table for each dynamotor 2,3 and stopper mechanism B that set so each driving mode shows in fig. 8.

Then, with reference to Fig. 8, the operating state of engine installation under EV pattern and link key element is described.Fig. 8 is the table of the operating state under the EV pattern in the driving mode that can set exemplified with the control setup of motor vehicle driven by mixed power."○" mark shown in Fig. 8 represents the situation of carrying out action about driving engine 1 and dynamotor 2,3, represents the situation of engaging about stopper mechanism B.On the other hand, the "×" mark shown in Fig. 8 represents not operating situation about driving engine 1 and dynamotor 2,3, represents the situation of release about stopper mechanism B.Below, each driving mode is described in detail.

Describe EV pattern, i.e. an EV pattern and the 2nd EV pattern in the multiple driving modes set by the control setup of motor vehicle driven by mixed power in detail.First, illustrate that the first dynamotor 2 and the second dynamotor 3 play the 2nd EV pattern of function as propulsion source.2nd EV pattern is the driving mode set when the lower speed of a motor vehicle, under the state making stopper mechanism B engage, reverses and make the second dynamotor 3 just transfer setting by making the first dynamotor 2.Rotating forward is the rotation in the direction identical with the hand of rotation of driving engine 1.And reversion is the rotation in the direction contrary with the hand of rotation of driving engine 1.If utilize alignment chart to represent the 2nd EV pattern, then as illustrated in Fig. 7 (a).In this case, the torque that the first dynamotor 2 exports is transmitted to the sun wheel Sn of power splitting mechanism 4.And the counter shaft gear that the torque that the second dynamotor 3 exports links to the gear ring Rg with power splitting mechanism 4 transmits 10.

When being described by the alignment chart of Fig. 7 (a), by with by the fixing planetary wheel carrier Cr of stopper mechanism B for fulcrum, can to illustrate with the principle of the gear ring Rg lever that is point of action for force with sun wheel Sn.Represent the vertical line of sun wheel Sn with represent planetary wheel carrier Cr vertical line be spaced apart " 1 " time, interval according to the vertical line of the vertical line and expression gear ring Rg that represent planetary wheel carrier Cr becomes the ratio of the number of teeth of sun wheel Sn with the number of teeth of gear ring Rg and the situation of gear ratio, and the principle of the lever that the power acting on force increases at point of action place works.Therefore, the torque played a role to the direction making the rotating speed of the first dynamotor 2 increase is amplified by power splitting mechanism 4 and transmits to output gear 9.And the torque acting on sun wheel Sn from the first dynamotor 2 is the torque played a role to reverse directions, so-called counter-force torque.Therefore, as shown in alignment chart, down act on and work as the counter-force torque on the sun wheel Sn in force in figure, the torque acting on output gear 9 thus increases.Therefore, under the 2nd EV pattern, when can increase starting etc. the low speed of a motor vehicle state under driving torque or maximum torque, the traveling conformed to the requirement of chaufeur can be carried out.

Then, illustrate and only make the second dynamotor 3 play an EV pattern of function as propulsion source.The driving mode that one EV pattern sets when being the high speed of a motor vehicle compared with the 2nd EV pattern when the high speed of a motor vehicle or under underload, under the state that driving engine 1 is stopped in the state making stopper mechanism B discharge, dally by making the first dynamotor 2 and make the second dynamotor 3 just transfer setting.That is, the first dynamotor 2 carrying out dallying neither plays the function of outputting power, does not also play the function of generating.If utilize alignment chart to represent an EV pattern, then as illustrated in Fig. 7 (b).In this case, be only second dynamotor 3 export torque as driving torque via counter shaft gear to 10 to drive wheel transmission.

Then, the HV pattern making driving engine 1 as propulsion source performance function is described.In this HV pattern, the power that driving engine 1 exports is distributed into by power splitting mechanism 4 and makes the first dynamotor 2 play the power of function as electrical generator, make the power of drive wheel.And when switching from an EV pattern to HV pattern, driving engine 1 is started by the first dynamotor 2.If when representing the starting of this driving engine 1 by alignment chart, then as illustrated in Fig. 7 (c).In this case, the torque that the first dynamotor 2 exports uses to control the rotating speed of driving engine 1.And, play the power of the second dynamotor 3 output of function as electrical motor also to drive wheel transmission.That is, HV pattern is when SOC declines or the driving mode of setting when travelling with the higher speed of a motor vehicle, and the output mainly based on driving engine 1 travels, and a part for the output of this driving engine 1 is temporarily converted to electric power and the driving mode that transmits to drive wheel.Therefore, HV pattern under the state making stopper mechanism B discharge, by make driving engine 1 action and with by first dynamotor 2 generate electricity electric power make the second dynamotor 3 just transfer setting.Specifically, in HV pattern preferably, stopper mechanism B is discharged and drives driving engine 1, the power of this driving engine 1 is inputted to power splitting mechanism 4, and then the power distribution that driving engine 1 exports is become the first dynamotor 2 side and output gear 9 side, make the first dynamotor 2 play function as electrical generator, this electric power is supplied to the second dynamotor 3 and makes it play function as electrical motor.

Make the rightabout torque of the hand of rotation of the torque acting on planetary wheel carrier Cr when the sun wheel Sn by the first dynamotor 2, the torque after the torque inputted from driving engine 1 being amplified exports from gear ring Rg.Therefore, the first dynamotor 2 plays function as electrical generator and makes counter-force torque in sun wheel Sn, consequently, is supplied by the electric power of generation to the second dynamotor 3, and the second dynamotor 3 plays function as electrical motor and rotates forward.Result is, a part for the torque that driving engine 1 exports is transmitted from planetary wheel carrier Cr to gear ring Rg as the direct transmitting torque of what is called and exports, after other torque is temporarily converted to electric power, export 10 via counter shaft gear from the second dynamotor 3 as mechanical torque.Therefore, in HV pattern, can by the first dynamotor 2, engine speed be changed continuously and suitably control rotating speed.Utilize this function engine speed can be set as the rotating speed that fuel economy is good, therefore, it is possible to improve the fuel economy as the entirety of vehicle.

As described above, under EV pattern, make driving engine 1 stop, under HV pattern, make driving engine 1 action.Therefore, when from EV pattern to HV Mode change, in the process of this switching, driving engine 1 is started.In the control setup of this motor vehicle driven by mixed power, HV pattern can not be become from the 2nd EV Mode change, and become HV pattern from an EV Mode change.Such as, from the 2nd EV pattern to the switching of HV pattern by becoming HV pattern to carry out from the 2nd EV pattern via an EV Mode change.Represent that the mapping of this Mode change illustrates in fig. 2 simply.Fig. 2 represents by the region of each driving mode with to the boundary line that these regions divide, the mapping of the reference when implementing the transformation of driving mode.

In the illustrative mapping of Fig. 2, the longitudinal axis is SOC, and transverse axis is the speed of a motor vehicle, is specified the region of each driving mode by these parameters.Therefore, in the control setup of motor vehicle driven by mixed power preferably, there is the change due to SOC or the speed of a motor vehicle and switch the situation of driving mode.It should be noted that, in fig. 2, specified the region of each driving mode by SOC and the speed of a motor vehicle, the consumption of the electric power of motor vehicle driven by mixed power is also by the generation such as A/C or head lamp, therefore specify that the physical quantity of each driving mode is not limited to SOC and the speed of a motor vehicle, also can adopt other physical quantity.In the control setup of motor vehicle driven by mixed power described herein, as its physical quantity, mapping as illustrative in Fig. 2, at least specify the region of each driving mode based on the speed of a motor vehicle and SOC, and switch driving mode based on the change of its physical quantity.

Specifically, there is HV a reference value and EV a reference value in a reference value that the switching controls as each driving mode uses.HV a reference value is a reference value for judging whether to switch EV pattern and HV pattern, in the illustrative mapping of Fig. 2, is the boundary line L divided EV mode region and HV mode region ₀on value.In other words, HV a reference value is for differentiating a reference value that the driving engine 1 whether making stopping starts.That is, the determining reference value for switching an EV pattern and HV pattern becomes HV a reference value.And EV a reference value is a reference value judging whether switching the 2nd EV pattern and an EV pattern in EV mode region, in the illustrative mapping of Fig. 2, be the boundary line L of division the one EV mode region and the 2nd EV mode region ₁on value.In a word, a reference value is to be used in the control and the value that determines in design that switch driving mode.

First, HV a reference value is boundary line L as illustrated in Fig. 2 ₀on value, by the HV reference values X about the speed of a motor vehicle ₀with the HV a reference value Y about SOC ₀set.That is, at the HV a reference value Y of SOC ratio about SOC ₀when little, how the speed of a motor vehicle all sets HV pattern.Equally, in the HV reference values X of speed of a motor vehicle ratio about the speed of a motor vehicle ₀when large, how SOC sets HV pattern.In other words, at the HV a reference value Y of SOC ratio about SOC ₀large and the speed of a motor vehicle compares the HV reference values X about the speed of a motor vehicle ₀when little, setting EV pattern.Such as, in travelling with an EV pattern, at SOC than HV a reference value Y ₀under large state, when the speed of a motor vehicle is than HV reference values X ₀time large, control in the mode switching driving mode from an EV pattern to HV pattern.On the other hand, in travelling with an EV pattern, in the speed of a motor vehicle than HV reference values X ₀under little state, when SOC is than HV a reference value Y ₀during reduction, control in the mode switching driving mode from an EV pattern to HV pattern.

In addition, EV a reference value is boundary line L ₁on value, by the EV reference values X about the speed of a motor vehicle ₁with the EV a reference value Y about SOC ₁set.And, to the boundary line L divided in this EV pattern ₁with aforesaid boundary line L ₀compare and be positioned at low speed of a motor vehicle side and for sufficient electric power storage state.Therefore, in the speed of a motor vehicle than HV reference values X ₀under little state, about the EV a reference value Y of SOC ₁than HV a reference value Y ₀the large value of value.On the other hand, at SOC than HV a reference value Y ₀under large state, about the EV reference values X of the speed of a motor vehicle ₁than HV reference values X ₀the little value of value.And, boundary line L ₁to make the EV reference values X of high speed of a motor vehicle side ₁the EV a reference value Y of SOC ₁become the EV reference values X than low speed of a motor vehicle side ₁the EV a reference value Y of SOC ₁the mode of large value sets.

In addition, the switching controls of the driving mode implemented according to the control setup by motor vehicle driven by mixed power of the present invention, Mode change except from an EV pattern except the switching of HV pattern, the switching from an EV pattern to the 2nd EV pattern can also be carried out.Namely, by specifying the differentiation result of the physical quantity of each driving mode and the EV a reference value about each physical quantity, even if when predict the starting of driving engine 1 and driving mode from the 2nd EV pattern to an EV Mode change, then can become the 2nd EV pattern from an EV Mode change due to the change of aforesaid physical quantity.

Then, with reference to Fig. 1, the control flow switching driving mode is described.Fig. 1 illustrates and uses two dynamotors 2,3 to travel when making driving engine 1 stop, switching to an example of the control of another driving mode from this driving mode.Specifically, be the control example being transformed into an EV pattern before the starting of driving engine 1, this control is performed by aforesaid electronic control package preparation property.First, motor vehicle driven by mixed power, in EV travels, determines whether to be set as the 2nd EV pattern (step S1).Mapping shown in the pattern setting signal that this judgement exports based on electronic control package, Fig. 2 can be carried out.During by being set as driving mode beyond the 2nd EV pattern and making negative evaluation in step sl, do not carry out especially controlling and temporarily terminating the routine shown in Fig. 1.

On the other hand, when making affirmative determination in step sl owing to being set as the 2nd EV pattern, the condition being judged as being transformed into the EV pattern utilizing second dynamotor 3 to travel is set up.This condition is SOC, the speed of a motor vehicle in the example depicted in figure 1, requires propulsive effort, in the present invention, is not limited thereto, and also other the physical quantity such as temperature of each dynamotor 2,3 or inverter can be joined in condition.Such as, performing when this temperature being used in the parameter of criterion when switching the control of driving mode, can be when this temperature becomes the high temperature of HV a reference value about temperature, setting up from the 2nd EV pattern to one of switching condition of an EV pattern.In the control example shown in Fig. 1, judge that whether SOC is than the EV a reference value Y about SOC ₁little (step S2).Because SOC is EV a reference value Y ₁when making negative evaluation above and in step s 2, judge that whether the speed of a motor vehicle is than the EV reference values X about the speed of a motor vehicle ₁high (step S3).Because the speed of a motor vehicle is EV reference values X ₁when making negative evaluation below and in step s3, do not carry out especially controlling and temporarily terminate the routine of Fig. 1.

Further, step S2 and step S3 arbitrary step make affirmative determination time, namely at SOC than EV a reference value Y ₁time few, or the speed of a motor vehicle is than EV reference values X ₁gao Shi, judges to require that whether propulsive effort is than predetermined a reference value F ₁little (step S4).This requires that propulsive effort can judge based on accelerator open degree.And, a reference value F ₁being the threshold value about requiring propulsive effort, in travelling with the 2nd EV pattern, being included in and switching to the threshold value of an EV pattern from the 2nd EV pattern.In other words, a reference value F ₁also the propulsive effort only utilizing the second dynamotor 3 can be called and the propulsive effort that vehicle can travel.It should be noted that, the order of the judgement of aforesaid step S2 ~ S4 is not defined as the order of the diagram of circuit shown in Fig. 1, as long as determine judgement order as required and suitably.Such as, namely the control of determining step S4 require that whether propulsive effort is less than specified value, in this judged result for time certainly, can carry out the judgement shown in step S2, S3.

On the other hand, owing to requiring driving force ratio a reference value F ₁little and when making affirmative determination in step s 4 which, implement the switching (step S5) from the 2nd EV pattern to an EV pattern.When requiring propulsive effort relatively large, the state reaching the output needing driving engine 1 can be thought, therefore as make driving engine 1 start before preparation state and set an EV pattern.When setting up to the judgement of the Mode change of an EV pattern in this step S5, in order to make the starting of driving engine 1 become possibility, link key element release (step S6) of fastening state will be become under the 2nd EV pattern.That is, become make as link key element stopper mechanism B discharge and driving engine 1 can be made to carry out the state of crank rotation (motoring) by the first dynamotor 2.

Then, with reference to Fig. 3 to Fig. 5, illustrate that the motoring condition according to vehicle switches the process of driving mode.Fig. 3 is the time diagram representing passing based on SOC and carry out an example of Mode change.As illustrated in Fig. 3, under the state that this motor vehicle driven by mixed power travels with the 2nd EV pattern, make two dynamotors 2,3 play function as propulsion source, the discharge rate therefore from electrical storage device increases, and SOC reduces gradually.Further, when SOC arrives EV a reference value Y ₁time, implement the switching from the 2nd EV pattern to an EV pattern.That is, driving engine 1 does not supply fuel and maintains halted state, and the first dynamotor 2 is not powered and do not generate electricity, and therefore becomes idling conditions.In addition, when switching driving mode from the 2nd EV pattern to an EV pattern, the link key element release will the rotation of driving engine 1 fixed under the 2nd EV pattern.

Under an EV pattern, make the second dynamotor 3 play function as propulsion source, only utilize this motor torque to travel as driving torque, therefore SOC declines gradually.Further, decline further as SOC and become than HV a reference value Y ₀hour, switch to HV pattern from an EV pattern.Switching to this HV pattern makes the driving engine 1 of stopping carry out motoring by utilizing the torque of the first dynamotor 2, supply fuel when reaching the rotating speed of regulation and driving engine 1 is started, and then controlling this engine speed to carry out by the first dynamotor 2.In this case, second dynamotor 3 exports the propulsive effort for making hybrid car travel, the first dynamotor 2 never state of Driving Torque rises to make driving engine 1 carry out the mode Driving Torque of motoring, even if therefore the motoring in driving engine 1 is brought into use in the torque of the first dynamotor 2, the propulsive effort of motor vehicle driven by mixed power also can not change especially.Therefore, can prevent or suppress propulsive effort temporarily to decline, or impact, or bring the situation of sense of discomfort to passenger.And, make driving engine 1 first carry out motoring before be transformed into an EV pattern, and by stopper mechanism B release, setting can make driving engine 1 carry out the so-called readiness for action of state of motoring or the state of preparation, therefore when the state that driving engine 1 should be made to start is set up, driving engine 1 is directly made to carry out motoring, and can start, therefore, it is possible to do not carry out the starting of driving engine 1 with being delayed.

And Fig. 5 represents passing based on the speed of a motor vehicle and the time diagram of the process that driving mode switches from EV pattern to HV pattern.In the illustrative situation of this Fig. 5, SOC is abundant in order to make vehicle travel, when the speed of a motor vehicle is than HV reference values X in EV travels ₁during increase, switch to HV pattern from an EV pattern.In the process switched from an EV pattern to HV pattern, the driving engine 1 being in halted state carries out motoring by the first dynamotor 2 and starts.In this case, also be before the motoring of driving engine 1, switch to an EV pattern and the first dynamotor 2 becomes idling conditions, and the stopper mechanism B state that is released and driving engine 1 can be made to rotate is set up, temporarily to decline or motoring lingeringly makes driving engine 1 start therefore, it is possible to there is not propulsive effort.

In addition, Fig. 4 is the time diagram representing the process switching driving mode in EV travels based on SOC and the speed of a motor vehicle from the 2nd EV pattern to an EV pattern.In the example shown in this Fig. 4, at SOC fully and under the state travelled with the lower speed of a motor vehicle, driving mode is set to the 2nd EV pattern.When carrying out accelerating based on acceleration request in travelling with the 2nd EV pattern, the speed of a motor vehicle increases, by dynamotor 2,3 power consumption, SOC declines.Further, when the SOC under certain speed of a motor vehicle is than the EV a reference value Y under this speed of a motor vehicle ₁during decline, switch to an EV pattern.Switching in the process of an EV pattern from the 2nd EV pattern, the stopper mechanism B of fastening state is discharged.

Then, with reference to Fig. 9, the example to the boundary line movement that an EV pattern and the 2nd EV pattern divide is described.To the boundary line L that an EV pattern and the 2nd EV pattern divide ₁can not fix, also can move based on the running-active status of motor vehicle driven by mixed power or the state etc. travelling predetermined road.That is, the EV a reference value Y about SOC under certain speed of a motor vehicle is made ₁change.This example illustrates in fig .9, and the physical quantity of the motoring condition of the physical quantity changed based on the motoring condition according to vehicle or expression vehicle, makes expression about the EV a reference value Y of SOC ₁and about the EV reference values X of the speed of a motor vehicle ₁boundary line L ₁mobile.In this embodiment, as making boundary line L ₁the parameter that the judgement of movement uses, can use the rate of change of the speed of a motor vehicle, the rate of change of SOC.Such as, when the rate of change of SOC is large, especially when this rate of descent is large, the possibility that SOC sharply declines is high.Therefore, when the rate of descent of SOC is large, with the EV a reference value Y of the SOC after movement compared with before movement ₁the mode becoming large value makes the boundary line L in EV pattern ₁mobile.In other words, to make the boundary line L under certain speed of a motor vehicle ₁with the boundary line L of HV pattern ₀deviation increase mode make this boundary line L ₁mobile.And, even if when the rate of change of the speed of a motor vehicle is large, in the same manner as also large with the rate of descent of SOC situation, make the boundary line L in EV pattern ₁mobile.Like this, with the boundary line L with HV pattern ₀deviation increase mode movement EV pattern in boundary line become boundary line L ₃(not shown).

On the other hand, when the rate of change of the little situation of the rate of descent of SOC or the speed of a motor vehicle is little, the boundary line L after movement as illustrative in Fig. 9 ₂like that, with the EV a reference value Y of the SOC after movement compared with before movement ₁the mode becoming little value changes.In other words, to make the boundary line L in EV pattern ₁with the boundary line L of HV pattern ₀deviation reduce mode make this boundary line Y ₁mobile, and set this move after boundary line L ₂.That is, boundary line L ₂the boundary line L making EV pattern ₁close to the boundary line L of HV pattern ₀boundary line.Thus, when the driving tendency good with fuel economy travels, even if the boundary line L before SOC ratio is mobile ₁the EV a reference value Y of SOC ₁when declining, as long as the boundary line L after mobile ₂the EV a reference value Y of SOC ₂more than (not shown), just motoring condition can be continued with the 2nd EV pattern.That is, the boundary line L before moving with use ₁the situation switching driving mode is compared, even if when SOC declines, the 2nd EV pattern also can be made to continue, therefore, it is possible to make the motoring condition under the state that electric power degree of utilization is good continue.

As described above from boundary line L ₁the boundary line L of movement ₂or boundary line L ₃amount of movement can be changed based on the size of the rate of change of SOC whether making the judgement of this boundary line movement use or the rate of change of the speed of a motor vehicle respectively.At this, illustrate from boundary line L ₁to boundary line L ₂amount of movement.Such as, relative hour of the rate of descent of SOC to boundary line L ₂amount of movement when becoming relatively larger than the rate of descent of SOC to boundary line L ₂the large amount of movement of amount of movement.That is, boundary line L ₂the relatively little situation of the rate of descent of middle SOC is with the boundary line L closer to HV pattern ₀mode move.And, boundary line L is made because of the rate of change of the speed of a motor vehicle ₁to boundary line L ₂time mobile, also same with the rate of descent of aforesaid SOC, the relatively little situation of the rate of change of the speed of a motor vehicle is with the boundary line L closer to HV pattern ₀mode move.

Then, with reference to Figure 10 and Figure 11, other example of the control setup of motor vehicle driven by mixed power of the present invention is described.Example described herein changes the structure of the link key element of aforesaid example.It should be noted that, for the structure same with the structure illustrated in aforesaid concrete example, omit the description, quote the reference label of this structure.Figure 10 possesses the synoptic map of clutch mechanism as the vehicle of link key element.Such as, replace the stopper mechanism B of aforesaid embodiment, the engaging key element possessing friction-type or the clutch mechanism C formed by free-wheel clutch.In the example shown in Figure 10, possess free-wheel clutch 21 as clutch mechanism C, the S. A. 5 of driving engine 1 can optionally be fixed by this free-wheel clutch 21.Therefore, the structure that the label " B " of the stopper mechanism in Fig. 6 and Fig. 8 is recorded is substituted by the label " C " of the clutch mechanisms such as free-wheel clutch 21 by this example.This clutch mechanism C is controlled by aforesaid electronic control package in the mode of carrying out the action same with aforesaid stopper mechanism B.That is, clutch mechanism C becomes connecting state in the mode that the rotation of driving engine 1 is fixing in the 2nd EV pattern, is release position when switching from the 2nd EV pattern to an EV pattern.And, about the starting control of driving engine 1 or the control to the first dynamotor 2 that this engine speed controls, also same with aforesaid concrete example.

In addition, Figure 11 is to changing with the member of formation that the rotary element of power splitting mechanism links and possessing the synoptic map of the vehicle of multiple link key element power transfer path cut off or be connected.In this concrete example, the sun wheel Sn of power splitting mechanism 4 links the second dynamotor 3, gear ring Rg links driving engine 1 and the first dynamotor 2, planetary wheel carrier Cr links output gear 9.Therefore, driving engine 1 links with gear ring Rg via clutch mechanism C1 and clutch mechanism C2.And the first dynamotor 2 links with gear ring Rg via clutch mechanism C2.In addition, be provided with stopper mechanism B1, gear ring Rg optionally links with stationary members such as housings by this stopper mechanism B1.That is, the rotation of gear ring Rg is optionally made to stop by stopper mechanism B1.It should be noted that, clutch mechanism C1 is the device separated by driving engine 1, can arrange the drivings device such as tor-con 31 between this driving engine 1 and clutch mechanism C1.

Like this, in the illustrative structure of Figure 11, same with the structure illustrated in aforesaid concrete example, multiple driving mode can be set, and the switching of driving mode can be carried out.Such as, when being set as the 2nd EV pattern, dynamotor 2,3 plays function as propulsion source and is discharged by stopper mechanism B1, and, clutch mechanism C1 is discharged and clutch mechanism C2 is engaged.And, in an EV pattern, the second dynamotor 3 is only made to play function as propulsion source, and make stopper mechanism B1 engage and gear ring Rg is played a role as counter-force key element, utilize power splitting mechanism 4 to amplify from the second dynamotor 3 to the torque of the sun wheel Sn input as input key element thus, export to drive wheel via output gear 9 from as the planetary wheel carrier Cr exporting key element.And, under an EV pattern, make clutch mechanism C1 be fastening state and make clutch mechanism C2 be release position.That is, from the 2nd EV pattern in the process that an EV pattern switches, power-transfer clutch C1 is discharged, and stopper mechanism B1 is engaged.Thus, the state that clutch mechanism C1 engages under an EV pattern rises in the process switching to HV pattern, the first dynamotor 2 can be used in the crank rotation of driving engine 1, can improve its responsibility.

Therefore, in the control setup of aforesaid motor vehicle driven by mixed power of the present invention, with an EV pattern, the first dynamotor 2 and driving engine 1 are connected to and can carry out transmission of power, therefore when from an EV pattern to HV Mode change, if make the rotating speed of the negative rotation veer of the first dynamotor 2 decline or make the rotating speed of the forward direction of first and second dynamotor 2,3 increase, then driving engine 1 can be made to carry out crank rotation and start.Therefore, without the need to carrying out the control of changing the operating state of the link key element be arranged between driving engine 1 and the first dynamotor 2, therefore the control switching driving mode is easy, and is not delayed especially and promptly carries out, and can improve behaviour in service.

At this, the aforesaid concrete example of simple declaration and relation of the present invention, functional unit or the electronic control package of the control of the execution step S2 ~ S4 shown in aforesaid Fig. 1 are equivalent to predicting unit of the present invention, and, the functional unit of control or the electronic control package that perform step S5 are equivalent to switch unit of the present invention, and the unit the first dynamotor 2 being driven in order to the motoring of the first dynamotor 2 or driving engine 1 is equivalent to starting unit of the present invention.And, make the boundary line L of EV pattern ₁the unit of movement is equivalent to a reference value changing unit of the present invention, and the functional unit or the electronic control package that perform the control of step S6 are equivalent to release indicating member of the present invention.

It should be noted that, the control setup of motor vehicle driven by mixed power of the present invention is not defined as aforesaid embodiment, can suitably change in the scope not departing from object of the present invention.

Such as, multiple driving mode can be comprised in aforesaid HV pattern, such as can using be suitable for low speed of a motor vehicle high load capacity driving mode or in fact converter speed ratio become the driving mode setting being suitable for so-called hypervelocity driving condition of less than 1 as HV pattern.

In addition, in aforesaid concrete example, each physical quantity is showed by size with the result differentiated that compares of a reference value about this physical quantity, but is not particularly limited as this performance.Such as, the speed of a motor vehicle and a reference value are in a ratio of at a high speed or low speed, temperature and a reference value are in a ratio of high temperature or low temperature, the SOC difference showed such as many or few compared with a reference value, are not particularly limited invention.And, in aforesaid concrete example, the electric power storage surplus of electrical storage device is recited as SOC, but this SOC is not defined as electric power storage surplus.Such as, the electric power storage rate that SOC can show as electrical storage device or the amount of power etc. that can export from electrical storage device, but as long as represent the physical quantity of the electric power storage state of electrical storage device in a word.

Label declaration

1 ... driving engine (ENG), 2 ... dynamotor (MG1), 3 ... dynamotor (MG2), 4 ... power splitting mechanism, 5 ... S. A., 6 ... wheel hub, 7 ... sleeve, 8 ... cylindrical portion, 9 ... output gear, 10 ... counter shaft gear pair, 15 ... diff, 16 ... axletree (OUT), B ... stopper mechanism, Sn ... sun wheel, Pn ... planetary wheel, Rg ... gear ring, Cr ... planetary wheel carrier.

Claims (7)

1. the control setup of a motor vehicle driven by mixed power, described motor vehicle driven by mixed power possesses combustion engine and two electrical motors, and be configured to can the state that travels of the power that exports of combustion engine described in choice for use and make described combustion engine stop and using the state that the power that at least any one electrical motor exports travels

The feature of the control setup of described motor vehicle driven by mixed power is to possess:

Predicting unit, when using the power of described two electrical motors to make described vehicle travel making described combustion engine stop, the detected value based on the state representing the described vehicle travelled predicts the situation that will make described engine starting;

Switch unit, predicted by described predicting unit to make described engine starting time, switch to following state: the traveling electrical motor that described engine starting will be used in described two electrical motors not being used in described motor vehicle driven by mixed power, and the power using the electrical motor of the opposing party to export is to make described hybrid car travel; And

Starting unit, after the state establishment that the power of the electrical motor using described the opposing party makes described vehicle travel, makes described engine starting.

2. the control setup of motor vehicle driven by mixed power according to claim 1, is characterized in that,

Described detected value comprise the electric power storage surplus of the electrical storage device to described electrical motor supply electric power, the speed of a motor vehicle, require in the temperature of propulsive effort, described electrical motor at least any one,

Described predicting unit comprises following unit: be in a ratio of the situation of the high speed of a motor vehicle in the described electric power storage surplus situation fewer than a reference value about electric power storage surplus, the described speed of a motor vehicle and a reference value about the speed of a motor vehicle, any one situation when being in a ratio of high temperature of described temperature and a reference value about temperature and require that driving force ratio is about when requiring that the situation that a reference value of propulsive effort is little is set up, and the prediction of the state should starting described combustion engine is set up.

3. the control setup of motor vehicle driven by mixed power according to claim 2, is characterized in that,

Described a reference value comprises the first reference value for predicting the situation that will make described engine starting,

For making in a reference value i.e. second a reference value of described engine starting, when the situation that the electric power storage surplus of at least described electrical storage device is fewer than the second a reference value about electric power storage surplus is set up, described starting unit makes described engine starting,

First reference value about described electric power storage surplus is the value larger than the second a reference value about described electric power storage surplus.

4. the control setup of motor vehicle driven by mixed power according to claim 3, is characterized in that,

First reference value about described electrical storage device is configured to as following value: the value set when the value set when the described speed of a motor vehicle is in high speed of a motor vehicle side is in low speed of a motor vehicle side than the described speed of a motor vehicle is large.

5. the control setup of the motor vehicle driven by mixed power according to claim 3 or 4, is characterized in that,

The control setup of described motor vehicle driven by mixed power also possesses:

Memory cell, stores the rate of change of the electric power storage surplus about described electrical storage device; And

A reference value changing unit, rate of change based on described electric power storage surplus changes the described first reference value about electric power storage surplus, the value that the first reference value changed when the first reference value changed when making the rate of descent in the rate of change of described electric power storage surplus relatively large changes to relatively less than the rate of descent of described electric power storage surplus is little.

6. the control setup of the motor vehicle driven by mixed power according to any one of claim 3 ~ 5, is characterized in that,

The control setup of described motor vehicle driven by mixed power also possesses:

Memory cell, stores the rate of change about the described speed of a motor vehicle; And

A reference value changing unit, rate of change based on the described speed of a motor vehicle changes the described first reference value about electric power storage surplus, the value that the first reference value changed when the first reference value changed when making the rate of change of this speed of a motor vehicle relatively large changes to relatively less than the rate of change of the described speed of a motor vehicle is little.

7. the control setup of the motor vehicle driven by mixed power according to any one of claim 1 ~ 6, is characterized in that,

The control setup of described motor vehicle driven by mixed power also possesses:

Link key element, fix or discharge the S. A. of described combustion engine; And

Release indicating member, makes described link key element discharge when being predicted will be made described engine starting by described predicting unit.